JP2004190880A - Test refrigerator lead wire bushing - Google Patents

Abstract

A bushing that minimizes the leakage of cool air at a lead wire lead-out portion and that does not peel off or break the insulation coating of the lead wire at the lead wire portion.
A through hole (15) is formed in a heat insulating wall (14) filled with a heat insulating material (13) between an outer shell (11) and an inner shell (12), and a lead wire drawing hole (17) in which a tube (16) is inserted into the through hole (15). In the bushing 20 to be fitted, a flange 21 is provided at an end of a sleeve 22 made of an elastomer, and a plurality of the sleeves 22 are spaced apart in a central axis direction of a portion where the sleeve 22 fits into the lead wire outlet hole 17. A plurality of annular ribs 25 are provided on the outer periphery of a portion where the cannula 22 fits into the lead wire drawing hole 17, and the bushing 20 is attached to the outer peripheral portion of the flange 21 at one position. In this case, a thick pattern 28 and a thick pattern hole 29 are provided on the swing-side facing surface that is divided into two, leaving the connecting portion 27.
[Selection diagram] Fig. 1

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lead wire bushing for a test refrigerator that minimizes leakage of cold air regardless of the size of the lead wire and facilitates the passage of the lead wire.
[0002]
[Prior art]
Patent Literature 1 is related to lead wire extraction of a refrigerator.
[0003]
[Patent Document 1]
Japanese Patent Application Laid-Open No. 6-147738 (Summary and FIG. 1)
[0004]
The above-mentioned Patent Document 1 discloses an electrical component 3 having a lead wire 4 and a connector 5, an inner box 1 for mounting the electrical component 3, an outer box 2, and an electrical component 3 located between the two boxes. A connector 12 and a lead wire 11 connected to the connector 5, a storage box 8 for storing each of the connectors 5 and 12 and lead wires 4 and 11 which are located in both boxes 1 and 2 and attached and connected to the inner box 1 side. And a foam insulating material 16 to be filled between the two boxes 1 and 2, and a notch 9 for forming a movable piece 10 at a substantially central position of the storage box 8 of the inner box 1.
[0005]
Further, as an actual example of drawing out a lead wire of a refrigerator (low temperature bath) for testing and research, as shown in FIG. 4, a hole 46 for drawing out a lead wire is provided in a heat insulating wall 44, and a bushing 50 is fitted into the hole 46. The relatively thick lead wire 56a passes through the center hole of the bushing 50, while the thin lead wire 56b has a wire drawing hole 46 provided in the heat insulating wall 44 as shown in FIG. The lead wire 56b extends between the bushing 50 and the bushing 50.
[0006]
[Problems to be solved by the invention]
In short, the technique of Patent Document 1 described above is provided with a horizontal notch parallel to the top and bottom, and a vertical notch connecting the center of the notch so that the connector and the lead wire can be easily stored in the storage box. It is provided with a certain access portion, and there is no idea to prevent cold air from leaking at the portion where the lead wire passes.
[0007]
In addition, the conventional technology shown in FIG. 4 has insufficient effect of preventing cold air from leaking in the refrigerator, and when a thin lead wire is passed between the lead wire outlet hole provided on the heat insulating wall and the bushing, the insulation is not obtained. There is a risk of peeling or disconnection of the coating.
[0008]
Refrigerators for testing and research put test samples in the refrigerator and read them from the heat insulating wall to convert the characteristic changes of the test sample under low temperature environment into current, voltage, resistance changes, etc. Pull out the wire and connect it to the measuring instrument.
[0009]
In drawing out the lead wire, if there is a leak of cold air, a stable test result cannot be obtained, and care must be taken so that there is no peeling or disconnection of the insulating coating.
[0010]
In view of the above, the present invention minimizes the leakage of cold air at the lead wire lead-out part in a lead-out part of a test / research refrigerator, and does not peel off or break the insulation coating of the lead wire at the lead-out part. An object is to provide a bushing.
[0011]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the present invention provides a lead wire drawing hole in which a through hole is formed in a heat insulating wall of a refrigerator filled with a heat insulating material between an outer shell and an inner shell, and a tube is inserted into the through hole. In the bushing to be fitted into the sleeve, a flange is provided at an end of a sleeve made of an elastomer, and a plurality of fins are provided at intervals in a central axis direction of a portion where the sleeve is fitted into the lead wire outlet hole. (Claim 1) With the configuration, a plurality of annular ribs are provided on the outer periphery of a portion where the sleeve is fitted into the lead wire drawing hole (Claim 2), and the bushing is formed at one position on the outer peripheral portion of the flange. In this case, a thick pattern and a thick pattern hole are provided on the oscillating-side facing surface that is divided into two parts.
[0012]
According to the present invention configured as described above, even if the lead wire is thin or thick by providing the fins at intervals in the bushing, the fins adhere to the lead wires even if the lead wires are thick, and the air is provided by the gap being widened. An insulating layer is formed to minimize the leakage of cool air. In addition, the provision of the annular rib on the outer periphery of the sleeve improves the close contact and heat insulation with the through hole formed in the heat insulating wall, which also has the effect of preventing the leakage of cool air, so that the bushing is connected in one place. By dividing into two, the lead wire can be easily pulled through.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, an embodiment of the present invention will be described with reference to FIGS. A through hole 15 is formed in the heat insulating wall 14 of the refrigerator 10 filled with the urethane foam resin composition (heat insulating material) 13 between the outer shell 11 and the inner shell 12, and a tube 16 is fitted into the through hole 15. A bushing 20 is fitted into the lead wire outlet hole 17 from both the outer shell side and the inner shell side of the lead wire outlet hole 17.
[0014]
The bushing 20 is a molded product of a foamed elastomer, and a flange 21 having a trapezoidal cross section is formed at one end, and a sleeve 22 is formed integrally with the flange 21. The flange 21 and the sleeve 22 are spaced apart from each other with a cavity 23 therebetween. A fin 24 is provided, an annular rib 25 is provided on the outer periphery of the sleeve 22, and the bushing 20 is divided into two parts while being connected at one place of the flange 21.
[0015]
When the lead wire 26 is pulled out using the bushing 20, the connecting portion 27 of the flange 21 is divided (opened) into two parts like a hinge, and the lead wire 26 is positioned at the fin 24 and sandwiched. In this state, the bushing 20 is pushed into the lead wire lead-out hole 16, and the bushing 20 is pushed in the same way on the opposite side. When the bushing is pushed into the lead wire lead-out hole on the opposite side, it is performed while pulling so that the lead wire is not twisted.
[0016]
A thick handle (dough) 28 and a thick handle hole 29 are provided on the swinging-side facing surface of the flange 21 so that they are fitted to each other so as not to shift.
[0017]
FIG. 3 shows a state in which the test sample 30 is placed inside the refrigerator 10, the lead wire 26 extends through a converter (not shown), and the lead wire 26 is drawn out of the heat insulating wall 14 of the refrigerator 10 via the bushing 20 according to the present invention. .
[0018]
Although the foaming elastomer was used as the material of the bushing, specifically, silicone rubber, foamed silicone rubber, EVA, or the like can be used.
[0019]
When the groove bottom diameter of the rib of the bushing portion of the bushing is D, the inner diameter of the cavity is D1, the width of the fin is W1, the width of the rib is W2, and the height of the rib is H, if D1 is too large, the lead wire is gripped. When the force is weak, the fin will not follow the lead when it is small. If W1 is too large, the fin will not follow the lead, and if W1 is too small, the gripping force of the lead will be weak. When W2 is too large, the bushing is difficult to fit, and when W2 is small, the bushing is weakly fitted. If H is too large, the fitting of the bushing becomes weak, and if it is small, the bushing becomes difficult to fit. Therefore, the optimal size is experimentally selected.
[0020]
【The invention's effect】
As described above, according to the present invention, when using a refrigerator for testing and research, it is possible to minimize the leakage of cold air at the lead-out portion of the lead wire, thereby stabilizing the measurement result and reducing the lead wire draw-out. It became easier, and there was no fear of peeling or disconnection of the insulation coating of the lead wire.
[Brief description of the drawings]
FIG. 1A is a perspective view of a bushing according to the present invention before use, and FIG. 2B is a cross-sectional view of the bushing in use. FIG. 2A is a plan view of the bushing in an open state, and FIG. FIG. 3 is an explanatory view of a use state of the bushing. FIG. 4 is a sectional view of a conventional example in which a (a) thick lead wire is drawn out, and (b) a thin lead wire is drawn out.
DESCRIPTION OF SYMBOLS 10 Refrigerator 11 Outer shell 12 Inner shell 13 Insulation material 14 Insulation wall 15 Through hole 16 Pipe 17 Lead wire outlet hole 20 Bushing 21 Flange 22 Sleeve tube 23 Cavity 24 Fin 25 Rib 26 Lead wire 27 Connection part 28 Thick pattern 29 Thick pattern Hole 30 test sample

Claims (3)

In a bushing in which a through hole is formed in a heat insulating wall of a refrigerator filled with a heat insulating material between an outer shell and an inner shell, and a bushing is inserted into a lead wire outlet hole in which a tube is inserted into the through hole, an elastomer is used as a material. A lead wire for a test refrigerator, wherein a flange is provided at an end of the sleeve, and a plurality of fins are provided at intervals in a central axis direction of a portion where the sleeve fits into the lead wire drawing hole. Bushing. The lead wire bushing for a test refrigerator according to claim 1, wherein a plurality of annular ribs are provided on an outer periphery of a portion where the sleeve fits into the lead wire drawing hole. 3. The bushing according to claim 1, wherein the bushing is divided into two portions so as to be continuous at one location on an outer peripheral portion of the flange, and a thick handle and a thick handle hole are provided on the divided swing-side facing surface. 4. Test refrigerator lead wire bushing.

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